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International Journal of Advanced Computer Research (IJACR)

ISSN (Print):2249-7277    ISSN (Online):2277-7970
Volume-3 Issue-13 December-2013
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Paper Title : Multi Way Feedback Encryption Standard Ver-2(MWFES-2)
Author Name : Asoke Nath, Debdeep Basu, Surajit Bhowmik, Ankita Bose, Saptarshi Chatterjee
Abstract :

Nath et al developed a method Multi Way Feedback Encryption Standard Version-I[18] recently, where the authors used both forward and backward feedback from left to right and from right to left on the plain text along with some random key. In MWFES-I[18], the ASCII value of plain text is added with key and forward feedback(FF) and backward feedback (BF) to obtain intermediate cipher text. The initial FF and BF are taken to be 0. The intermediate cipher text is taken modulo operation with 256 to get cipher text. This cipher text is taken as feedback for the next column. In the second round we calculate the cipher text from the RHS. In the present method, the authors have used a much more general approach. In this paper, the FF and BF has been applied using skip by n-columns, where ‘n’ can be 0 to any number less than the length of the plain text. This skip, denoted here by ‘n’, can be generated dynamically from the key. So ‘n’ can be taken as a function of the key. A comparative study was also made for same plain text, same key and different skip value i.e. ‘n’. The results indicate that the encrypted texts are coming totally different, just by varying ‘n’. The present method gives almost unlimited scope to encrypt any message. The authors applied the present method on some standard plain texts such as 1024 ASCII ‘0’, 1024 ASCII ‘1’, 1024 ASCII ‘2’ and 1024 ASCII ‘3’ and the frequency analysis shows the encrypted texts are totally random. Initially, the user has to enter a secret key (seed). The MSA[1] randomization algorithm generates an enlarged keypad of the size of the plain-text from the seed. This keypad is used for further encryption and decryption. The present method is very effective as the encrypted text changes drastically on varying the skip ‘n’. MWFES-2 can be applied to encrypt any short message, password, confidential message or any other important document. The results show that the present method is free from standard attacks such as differential attack, known plain text attack etc.

Keywords : MWFES, MSA, ASCII, Confidential Message, Encryption.
Cite this article : Asoke Nath, Debdeep Basu, Surajit Bhowmik, Ankita Bose, Saptarshi Chatterjee, " Multi Way Feedback Encryption Standard Ver-2(MWFES-2) " , International Journal of Advanced Computer Research (IJACR), Volume-3, Issue-13, December-2013 ,pp.28-34.